| 1-Wire® DEVICES |
| DS1820 DS18S20 MAX1407 DS1820S DS1920 MAXQ2000 | Temperature-Based Fan Control Using the MAXQ2000 Microcontroller |
| MAX127 DS18S20 | Remote Monitoring System Sends E-mail via SMS |
| DS2450 DS2760 DS2409 DS9097 DS2438 DS2423 DS2406 | Overview of 1-Wire Technology and Its Use |
| A/D and D/A CONVERSION/SAMPLING CIRCUITS |
| MAX1233 MAX1234 | Getting Started with the MAX1233/MAX1234 Touch-Screen Controllers |
| | Analog ICs for Low Voltage Systems |
| | Resistive Bridge Basics: Part One |
| MAX1124 MAX1449 | Improving Gain Flatness without Sacrificing Dynamic Performance in High-IF ADCs |
| General |
| MAX1402 MAX1416 MAX1409 MAX1499 MAX1493 MAX1403 MAX1496 MX7705 MAX1400 MAX1495 MAX1408 MAX1498 MAX1492 MAX1497 MAX1491 MAX1415 MAX1401 MAX1414 MAX1447 MAX1494 MAX1407 | Understanding the Effects of Clock Tolerances on 50/60Hz Noise Rejection in High Performance Sigma Delta ADCs |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| MAX127 DS18S20 | Remote Monitoring System Sends E-mail via SMS |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| | Understanding Integral Non-Linearity Errors |
| MAX4430 MAX3232 MAX1169 | Interfacing the MAX1169 ADC to a PIC Microcontroller |
| ICL7137 MAX1499 MAX1491 MAX1497 MAX130 MAX1496 MAX1493 ICL7106 ICL7116 MAX138 ICL7117 ICL7126 ICL7107 MAX136 MAX1491 MAX1498 MAX140 MAX1492 ICL7136 ICL7129 MAX1494 MAX139 MAX131 | Migrating from Integrating ADC Architectures to Sigma Delta |
| DS1852 | How to Configure the DS1852 Alarm and Warning Thresholds to Comply with SFF-8472 |
| MAX5420 MAX159 | Multi-Range ADC Use Voltage Reference Scaling Techniques |
| MAX4164 MAX1248 | Circuit Enables PC-Based Voltage Measurements |
| MAX1133 MAX1134 MAX1189 MAX1135 MAX1142 MAX1144 MAX1159 MAX1143 MAX1145 MAX1132 | Analysis of ADC System Distortion Caused by Source Resistance |
| MAX4455 MAX4358 MAX4616 | Improving the Performance of the MAX4455 by Reducing On-Screen Display Artifacts |
| MAX1400 MAX1402 | Demystifying Sigma-Delta ADCs |
| | Effects of Digital Crosstalk in Data Converters
Part 3: Digital Data Signal Crosstalk on the Clock |
| | Effects of Digital Crosstalk in Data Converters
Part 2: Crosstalk on the Clock |
| | Effects of Digital Crosstalk in Data Converters |
| | A Simple Thermistor Interface to an ADC |
| MAX125 MAX202E MAX3100 MAX471 | Practical Data Acquisition using a Windows¹-based Power Meter
|
| MAX1286 MAX147 MAX1298 MAX146 MAX186 | Understanding Single-Ended, Pseudo-Differential and Fully-Differential ADC Inputs |
| MAX4304 MAX4123 MAX4255 MAX4212 MAX4107 MAX4181 MAX4105 MAX4309 MAX4251 MAX495 MAX4250 MAX4256 MAX4213 MAX4180 MAX4102 MAX4112 MAX4331 MAX410 MAX4113 MAX4100 MAX4322 MAX4108 MAX4122 MAX4125 MAX4012 MAX4223 MAX4308 MAX4224 MAX4305 MAX4106 MAX4130 MAX4104 MAX4124 MAX4103 MAX4166 MAX4109 MAX4165 MAX4330 MAX4131 MAX4101 MAX4323 | Choosing The Optimum Buffer/ADC Combination For Your Application |
| MAX1065 MAX1280 MAX195 MAX1290 MAX1162 MAX1111 MAX1165 MAX1166 MAX1118 MAX1066 MAX1133 MAX1132 | Understanding SAR ADCs |
| ICL7109 ICL7106 ICL7136 ICL7129 ICL7107 ICL7117 ICL7126 ICL7137 ICL7116 | Understanding Integrating ADCs |
| MAX951 MAX4066 | Low-Power 3V ADC is 0.05% Linear |
| MAX1425 MAX14449 MAX14448 MAX1200 MAX1446 MAX1426 MAX1201 MAX1444 MAX1205 | Understanding Pipelined ADCs |
| MAX1414 MAX1409 MAX1408 MAX1407 | The MAX1407 Complete Data Acquisition System Simplifies Your System Designs |
| MAX666 MAX187 MAX220 | PC Serial Port Drives 12-Bit A/D Converter |
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| MAX1106 MAX105 MAX104 MAX196 MAX153 | Understanding Flash ADCs |
| MAX7652 MAX5154 MAX7651 | Interfacing SPI Peripherals to the MAX7651 Processor |
| MAX1286 MAX1247 MAX186 MAX1111 MAX195 | Frequently Asked Questions About Data Converters |
| MAX1290 MAX1291 MAX1280 MAX1281 | The ABCs of ADCs: Understanding How ADC Errors Affect System Performance |
| | ADC and DAC Glossary |
| MAX1115 MAX1116 MAX1117 MAX1118 MAX6341 MAX541 | Bench Characterization of ADCs Using a Low-Cost PC-Based Data-Acquisition Board |
| MAX195 MAX194 | Interfacing the MAX195 ADC to the TMS320C3X Evaluation Module |
| MAX187 | Interfacing the MAX187 to the TMS320C3X Evaluation Module |
| MAX125 MAX126 MAX116 MAX115 | ADCs for Simultaneous Sampling |
| MAX199 MAX197 MAX128 MAX1270 MAX198 MAX1271 MAX127 MAX196 | Analog-Signal Data Acquisition in Industrial Automation Systems |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| MAX190 | 12-Bit Sampling A/D Converter Conserves Power |
| MX7545 MAX163 | Sample/Hold Has Zero Droop and Infinite Hold |
| High-Speed Signal Processing |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1448 MAX1426 MAX1121 MAX12553 MAX1208 MAX1425 MAX1444 MAX1123 MAX1420 MAX1421 MAX1213 MAX1422 MAX1123 MAX1211 MAX1206 MAX1446 MAX1122 MAX1207 MAX1449 | Crunching FFTs with Microsoft® Excel |
| MAX1124 MAX1123 MAX1122 | Secondary-Side Transformer Termination Improves Gain Flatness in High-Speed ADCs |
| MAX1449 | Proper Input Network Selection Achieves Optimum Dynamic Performance and Excellent Gain Flatness in High-Speed ADCs |
| MAX1196 MAX1185 MAX1192 | High-Speed ADC Sets Input Common-Mode Range |
| MAX9993 MAX9982 MAX9981 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX153 ICL7106 | A Simple ADC Comparison Matrix |
| MAX1192 MAX1193 MAX1191 | Histogram Testing Determines DNL and INL Errors |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| | How Quantization and Thermal Noise Determine an ADC's Effective Noise Figure |
| MAX1427 MAX1196 MAX1198 MAX1209 MAX1190 MAX1446 MAX1180 MAX1206 MAX1419 MAX1195 MAX1181 MAX1184 MAX1444 MAX1211 MAX1185 MAX1191 MAX1448 MAX1208 MAX1207 MAX1192 MAX1449 MAX1182 MAX1418 MAX1193 MAX1197 MAX1183 MAX1186 | Coherent Sampling vs. Window Sampling |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| MAX1444 MAX1448 MAX1446 MAX1449 | Multiply Your Sampling Rate with Time-Interleaved Data Converters |
| MAX101A MAX101AEVKit | Novel Storage Idea Supports Ultra-Fast Data Acquisition |
| | Automating ADC Data Collection |
| MAX104 MAX105 MAX107 MAX2620 MAX106 | Design a Low-Jitter Clock for High-Speed Data Converters |
| | Glossary of Frequently Used High-Speed Data Converter Terms |
| MAX1444 MAX1182 MAX1186 MAX1448 MAX1185 MAX1420 MAX1446 MAX1180 MAX1183 MAX1196 MAX1449 MAX1195 MAX1190 MAX1422 MAX1184 MAX1198 MAX1421 MAX1181 | Dynamic Testing of High-Speed ADCs, Part 2 |
| MAX1181 MAX1185 MAX1198 MAX1190 MAX1446 MAX1448 MAX1420 MAX1449 MAX1180 MAX1195 MAX1422 MAX1444 MAX1196 MAX1186 MAX1183 MAX1184 MAX1421 MAX1182 | Defining and Testing Dynamic Parameters in High-Speed ADCs, Part 1 |
| MAX106 MAX105 MAX104 MAX107 MAX108 | ADC Captures 1Gsps |
| MAX1200 MAX1420 MAX1421 MAX1422 MAX1205 MAX1201 | Pipeline ADCs Come of Age |
| MAX106 MAX108 MAX105 MAX107 MAX104 | INL/DNL Measurements for High-Speed Analog-to-Digital Converters (ADCs) |
| AMPLIFIER AND COMPARATOR CIRCUITS |
| | Analog ICs for Low Voltage Systems |
| Current Sensing |
| MAX125 MAX202E MAX3100 MAX471 | Practical Data Acquisition using a Windows¹-based Power Meter
|
| Filters |
| MAX7419 MAX7418 MAX7421 MAX7420 MAX7375 MAX7490 MAX1067 DS1085 | The Basics of Anti-Aliasing: Using Switched-Capacitor Filters |
| Miscellaneous |
| MAX4304 MAX4123 MAX4255 MAX4212 MAX4107 MAX4181 MAX4105 MAX4309 MAX4251 MAX495 MAX4250 MAX4256 MAX4213 MAX4180 MAX4102 MAX4112 MAX4331 MAX410 MAX4113 MAX4100 MAX4322 MAX4108 MAX4122 MAX4125 MAX4012 MAX4223 MAX4308 MAX4224 MAX4305 MAX4106 MAX4130 MAX4104 MAX4124 MAX4103 MAX4166 MAX4109 MAX4165 MAX4330 MAX4131 MAX4101 MAX4323 | Choosing The Optimum Buffer/ADC Combination For Your Application |
| MAX951 MAX4066 | Low-Power 3V ADC is 0.05% Linear |
| Op Amp Analysis, Tips and Tricks |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| Sensors and Instrumentation |
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| Test and Measurement |
| MAX4164 MAX1248 | Circuit Enables PC-Based Voltage Measurements |
| MAX125 MAX202E MAX3100 MAX471 | Practical Data Acquisition using a Windows¹-based Power Meter
|
| AUDIO CIRCUITS |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| AUTOMATIC TEST EQUIPMENT (ATE) |
| MAX9961 MAX9950 MAX9949 MAX9968 MAX9967 MAX9962 | Built-In Features Eliminate the Need for External Relays when Using the Maxim Driver-Comparator-Load (DCL) and Parametric Measurement Unit (PMU) Chip Sets |
| BASESTATIONS / WIRELESS INFRASTRUCTURE |
| High-Speed ADCs |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX1448 MAX1426 MAX1121 MAX12553 MAX1208 MAX1425 MAX1444 MAX1123 MAX1420 MAX1421 MAX1213 MAX1422 MAX1123 MAX1211 MAX1206 MAX1446 MAX1122 MAX1207 MAX1449 | Crunching FFTs with Microsoft® Excel |
| MAX1124 MAX1449 | Improving Gain Flatness without Sacrificing Dynamic Performance in High-IF ADCs |
| MAX19588 MAX1215N MAX1449 MAX1190 MAX1193 MAX1430 MAX1198 MAX12559 MAX12529 MAX1438 MAX1127 MAX1208 MAX12555 MAX1124 MAX1121 MAX1434 | Coherent Sampling Calculator (CSC) |
| MAX1124 MAX1123 MAX1122 | Secondary-Side Transformer Termination Improves Gain Flatness in High-Speed ADCs |
| MAX1449 | Proper Input Network Selection Achieves Optimum Dynamic Performance and Excellent Gain Flatness in High-Speed ADCs |
| MAX1196 MAX1185 MAX1192 | High-Speed ADC Sets Input Common-Mode Range |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| | How Quantization and Thermal Noise Determine an ADC's Effective Noise Figure |
| MAX1427 MAX1196 MAX1198 MAX1209 MAX1190 MAX1446 MAX1180 MAX1206 MAX1419 MAX1195 MAX1181 MAX1184 MAX1444 MAX1211 MAX1185 MAX1191 MAX1448 MAX1208 MAX1207 MAX1192 MAX1449 MAX1182 MAX1418 MAX1193 MAX1197 MAX1183 MAX1186 | Coherent Sampling vs. Window Sampling |
| MAX1425 MAX14449 MAX14448 MAX1200 MAX1446 MAX1426 MAX1201 MAX1444 MAX1205 | Understanding Pipelined ADCs |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| MAX1444 MAX1448 MAX1446 MAX1449 | Multiply Your Sampling Rate with Time-Interleaved Data Converters |
| MAX1444 MAX1182 MAX1186 MAX1448 MAX1185 MAX1420 MAX1446 MAX1180 MAX1183 MAX1196 MAX1449 MAX1195 MAX1190 MAX1422 MAX1184 MAX1198 MAX1421 MAX1181 | Dynamic Testing of High-Speed ADCs, Part 2 |
| MAX1181 MAX1185 MAX1198 MAX1190 MAX1446 MAX1448 MAX1420 MAX1449 MAX1180 MAX1195 MAX1422 MAX1444 MAX1196 MAX1186 MAX1183 MAX1184 MAX1421 MAX1182 | Defining and Testing Dynamic Parameters in High-Speed ADCs, Part 1 |
| MAX1200 MAX1420 MAX1421 MAX1422 MAX1205 MAX1201 | Pipeline ADCs Come of Age |
| High-Speed DACs |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| Wireless and RF System Design |
| MAX9993 MAX9982 MAX9981 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| BATTERY MANAGEMENT |
| | Analog ICs for Low Voltage Systems |
| Battery Chargers |
| | Comparing the I2C Bus to the SMBus |
| Fuel-Gauge Circuits |
| | Comparing the I2C Bus to the SMBus |
| COMMUNICATIONS CIRCUITS |
| MAX11014 MAX11008 MAX1386 MAX1385 | Implementing a MAX1385-Based Control Loop in C/C++ |
| MAX12527 MAX12528 MAX12529 MAX12557 MAX12558 MAX12559 MAX2055 MAX2027 | Optimize the Buffer Amplifier/ADC Connection |
| MAX19586 | ADC Parameters for Your Wideband Telecommunications Receiver |
| MAX9993 MAX9982 MAX9981 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| DS1851 | DS1851 Varactor Temperature Compensation |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| DIGITAL POTENTIOMETERS |
| | Analog ICs for Low Voltage Systems |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| DS1852 | How to Configure the DS1852 Alarm and Warning Thresholds to Comply with SFF-8472 |
| A-D and D-A Conversion |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Amplifier Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Audio |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Display Control--LCD, CCFL, TFT |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Fiber Monitoring and Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| General |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| Industrial and Architectural Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| Instrumentation |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Power Supply Margining and Calibration |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| RF Power Amp |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| FIBER-OPTIC CIRCUITS |
| Optical Control & Monitoring |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1854 DS1857 DS1852 DS1858 | Monitor Calibration in Fiber Optic Applications |
| FILTER CIRCUITS (ANALOG) |
| | Understanding Integral Non-Linearity Errors |
| Continuous-Time Filter |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| Switched-Capacitor Filter |
| MAX7419 MAX7418 MAX7421 MAX7420 MAX7375 MAX7490 MAX1067 DS1085 | The Basics of Anti-Aliasing: Using Switched-Capacitor Filters |
| GENERAL ENGINEERING TOPICS |
| MAX12558 MAX12557 MAX12528 MAX12527 | MAX12557 Schematic and Layout Suggestions |
| | Resistive Bridge Basics: Part One |
| | Automating ADC Data Collection |
| DS1669 | Digitally-Controlled Phase Shift Using the DS1669 |
| HIGH-SPEED INTERCONNECT |
| MAX12527 MAX12528 MAX12529 MAX12557 MAX12558 MAX12559 MAX2055 MAX2027 | Optimize the Buffer Amplifier/ADC Connection |
| MAX19586 | ADC Parameters for Your Wideband Telecommunications Receiver |
| MAX19541 | Mathematical Basics of Band-Limited Sampling and Aliasing |
| HIGH-SPEED SIGNAL PROCESSING |
| MAX1124 MAX1449 | Improving Gain Flatness without Sacrificing Dynamic Performance in High-IF ADCs |
| MAX1124 MAX1123 MAX1122 | Secondary-Side Transformer Termination Improves Gain Flatness in High-Speed ADCs |
| MAX1449 | Proper Input Network Selection Achieves Optimum Dynamic Performance and Excellent Gain Flatness in High-Speed ADCs |
| MAX1196 MAX1185 MAX1192 | High-Speed ADC Sets Input Common-Mode Range |
| MAX9993 MAX9982 MAX9981 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX153 ICL7106 | A Simple ADC Comparison Matrix |
| MAX1428 | Understanding ADC Noise for Small and Large Signal Inputs for Receiver Applications |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| | Automating ADC Data Collection |
| ADC |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX1214 MAX1124 MAX1215 MAX1122 MAX1123 MAX19541 MAX19542 MAX1121 MAX1213 | "Stitch" Your Way Out of Logic-Analyzer Memory Limitations |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX1448 MAX1426 MAX1121 MAX12553 MAX1208 MAX1425 MAX1444 MAX1123 MAX1420 MAX1421 MAX1213 MAX1422 MAX1123 MAX1211 MAX1206 MAX1446 MAX1122 MAX1207 MAX1449 | Crunching FFTs with Microsoft® Excel |
| MAX19588 MAX1215N MAX1449 MAX1190 MAX1193 MAX1430 MAX1198 MAX12559 MAX12529 MAX1438 MAX1127 MAX1208 MAX12555 MAX1124 MAX1121 MAX1434 | Coherent Sampling Calculator (CSC) |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| | How Quantization and Thermal Noise Determine an ADC's Effective Noise Figure |
| MAX1427 MAX1196 MAX1198 MAX1209 MAX1190 MAX1446 MAX1180 MAX1206 MAX1419 MAX1195 MAX1181 MAX1184 MAX1444 MAX1211 MAX1185 MAX1191 MAX1448 MAX1208 MAX1207 MAX1192 MAX1449 MAX1182 MAX1418 MAX1193 MAX1197 MAX1183 MAX1186 | Coherent Sampling vs. Window Sampling |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| MAX1444 MAX1448 MAX1446 MAX1449 | Multiply Your Sampling Rate with Time-Interleaved Data Converters |
| MAX101A MAX101AEVKit | Novel Storage Idea Supports Ultra-Fast Data Acquisition |
| MAX104 MAX105 MAX107 MAX2620 MAX106 | Design a Low-Jitter Clock for High-Speed Data Converters |
| MAX1444 MAX1182 MAX1186 MAX1448 MAX1185 MAX1420 MAX1446 MAX1180 MAX1183 MAX1196 MAX1449 MAX1195 MAX1190 MAX1422 MAX1184 MAX1198 MAX1421 MAX1181 | Dynamic Testing of High-Speed ADCs, Part 2 |
| MAX1181 MAX1185 MAX1198 MAX1190 MAX1446 MAX1448 MAX1420 MAX1449 MAX1180 MAX1195 MAX1422 MAX1444 MAX1196 MAX1186 MAX1183 MAX1184 MAX1421 MAX1182 | Defining and Testing Dynamic Parameters in High-Speed ADCs, Part 1 |
| MAX106 MAX105 MAX104 MAX107 MAX108 | ADC Captures 1Gsps |
| MAX1200 MAX1420 MAX1421 MAX1422 MAX1205 MAX1201 | Pipeline ADCs Come of Age |
| MAX106 MAX108 MAX105 MAX107 MAX104 | INL/DNL Measurements for High-Speed Analog-to-Digital Converters (ADCs) |
| DAC |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| General |
| MAX1213 MAX1123 MAX19542 MAX1122 MAX19541 MAX1124 MAX1121 | Combine Multiple Data Files to Optimize INL/DNL Processing |
| MAX12555 MAX9320 MAX12554 MAX12553 | Schematic and Layout Guidelines for High-Speed Data Converters |
| MAX19588 MAX1215N MAX1449 MAX1190 MAX1193 MAX1430 MAX1198 MAX12559 MAX12529 MAX1438 MAX1127 MAX1208 MAX12555 MAX1124 MAX1121 MAX1434 | Coherent Sampling Calculator (CSC) |
| MAX1192 MAX1193 MAX1191 | Histogram Testing Determines DNL and INL Errors |
| MAX1209 MAX1419 MAX1190 MAX1444 MAX1449 MAX1183 MAX1180 MAX1184 MAX1191 MAX1196 MAX1211 MAX1207 MAX1446 MAX1181 MAX1185 MAX1192 MAX1448 MAX1182 MAX1186 MAX1193 MAX1198 MAX1206 MAX1427 MAX1197 MAX1208 MAX1418 MAX1195 | Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing |
| MAX1427 MAX1196 MAX1198 MAX1209 MAX1190 MAX1446 MAX1180 MAX1206 MAX1419 MAX1195 MAX1181 MAX1184 MAX1444 MAX1211 MAX1185 MAX1191 MAX1448 MAX1208 MAX1207 MAX1192 MAX1449 MAX1182 MAX1418 MAX1193 MAX1197 MAX1183 MAX1186 | Coherent Sampling vs. Window Sampling |
| | Glossary of Frequently Used High-Speed Data Converter Terms |
| INTERFACE CIRCUITS |
| Other Interface Circuits |
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| MAX7652 MAX5154 MAX7651 | Interfacing SPI Peripherals to the MAX7651 Processor |
| RS232 |
| MAX4430 MAX3232 MAX1169 | Interfacing the MAX1169 ADC to a PIC Microcontroller |
| MEASUREMENT CIRCUITS |
| MAX1233 MAX1234 | Getting Started with the MAX1233/MAX1234 Touch-Screen Controllers |
| | Using the MAXQ2000 to Implement a High-Speed I2C Interface for the MAX1169 |
| MAX1494 MAX6126 MAX1492 MAX8510 MAX1403 MAX1238 MAX1415 | Design Considerations for a Low-Cost Sensor and A/D Interface |
| | Resistive Bridge Basics: Part One |
| MAX1402 MAX1416 MAX1409 MAX1499 MAX1493 MAX1403 MAX1496 MX7705 MAX1400 MAX1495 MAX1408 MAX1498 MAX1492 MAX1497 MAX1491 MAX1415 MAX1401 MAX1414 MAX1447 MAX1494 MAX1407 | Understanding the Effects of Clock Tolerances on 50/60Hz Noise Rejection in High Performance Sigma Delta ADCs |
| MAX9961 MAX9950 MAX9949 MAX9968 MAX9967 MAX9962 | Built-In Features Eliminate the Need for External Relays when Using the Maxim Driver-Comparator-Load (DCL) and Parametric Measurement Unit (PMU) Chip Sets |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| DS2450 DS2760 DS2409 DS9097 DS2438 DS2423 DS2406 | Overview of 1-Wire Technology and Its Use |
| | Automating ADC Data Collection |
| MAX1414 MAX1409 MAX1408 MAX1407 | The MAX1407 Complete Data Acquisition System Simplifies Your System Designs |
| MICROCONTROLLERS |
| 8051 Drop-In |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX7652 MAX7651 | Downloading a Program to Flash Using the MAX7651 EVKIT Serial Downloader |
| MAX7652 MAX7651 | Configuring Keil uVision IDE for the MAX7651 EVKIT |
| MAX7651 MAX7652 | Performing ADC Conversions Using the MAX7651 |
| MAX186 MAX188 | 12-Bit ADC Upgrades µC's Internal 8-Bit ADC |
| MAX7652 MAX7651 | Pseudo-Random Number Generation Routine for the MAX765x Microprocessor |
| MAX7652 MAX7651 | A Collection of Extended Math Subroutines for the MAX7651 |
| MAX7651 MAX7652 | Interfacing the MAX7651/MAX7652 12-Bit Data Acquisition System to the 24C02 2-Wire Serial EEPROM |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| MAXQ Mixed-Signal |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| Secure |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| TINI Networked |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| MISCELLANEOUS CIRCUITS |
| | Resistive Bridge Basics: Part One |
| MAX147 | Adjustment-Free Inclinometer Operates On +2.7V |
| | Automating ADC Data Collection |
| POWER-SUPPLY CIRCUITS |
| | Analog ICs for Low Voltage Systems |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| APP NOTES FOR: Desktop PC / Server |
| | Comparing the I2C Bus to the SMBus |
| APP NOTES FOR: Notebook Computer |
| | Comparing the I2C Bus to the SMBus |
| APP NOTES FOR: Other |
| | Comparing the I2C Bus to the SMBus |
| SENSOR SIGNAL CONDITIONERS |
| MAX1464 | Maximizing the MAX1464's ADC Range |
| | Resistive Bridge Basics: Part One |
| MAX1402 MAX1416 MAX1409 MAX1499 MAX1493 MAX1403 MAX1496 MX7705 MAX1400 MAX1495 MAX1408 MAX1498 MAX1492 MAX1497 MAX1491 MAX1415 MAX1401 MAX1414 MAX1447 MAX1494 MAX1407 | Understanding the Effects of Clock Tolerances on 50/60Hz Noise Rejection in High Performance Sigma Delta ADCs |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| MAX472 MAX951 | Two ICs Convert 4-20mA Signal to 0-5V Output |
| SWITCHES AND MULTIPLEXERS |
| DS2450 DS2760 DS2409 DS9097 DS2438 DS2423 DS2406 | Overview of 1-Wire Technology and Its Use |
| TEMPERATURE SENSORS and THERMAL MANAGEMENT |
| MAX11014 MAX11008 MAX1386 MAX1385 | Implementing a MAX1385-Based Control Loop in C/C++ |
| DS1820 DS18S20 MAX1407 DS1820S DS1920 MAXQ2000 | Temperature-Based Fan Control Using the MAXQ2000 Microcontroller |
| | Resistive Bridge Basics: Part One |
| MAX127 DS18S20 | Remote Monitoring System Sends E-mail via SMS |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| MAX1400 MAX1402 | Demystifying Sigma-Delta ADCs |
| DS2450 DS2760 DS2409 DS9097 DS2438 DS2423 DS2406 | Overview of 1-Wire Technology and Its Use |
| MAX1298 | Achieving High Accuracy Using MAX1298/MAX1299 Temperature Sensors |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| VIDEO CIRCUITS |
| On-Screen Display |
| MAX4455 MAX4358 MAX4616 | Improving the Performance of the MAX4455 by Reducing On-Screen Display Artifacts |
| VOLTAGE REFERENCES |
| MAX6025 MAX1087 | Simple Power Monitor |
| | Analog ICs for Low Voltage Systems |
| MAX1498 MAX1491 MAX5490 MAX6126 MAX1493 MAX1495 MAX1447 MAX1496 | Implementing an External Reference and the Resulting Effect on Gain for the MAX149x Sigma-Delta Panel-Meter ADCs |
| MAX4430 MAX3232 MAX1169 | Interfacing the MAX1169 ADC to a PIC Microcontroller |
| MAX5420 MAX159 | Multi-Range ADC Use Voltage Reference Scaling Techniques |
| MAX4254 MAX1180 MAX1198 MAX1448 MAX1195 MAX1181 MAX1184 MAX1186 MAX6066 MAX1444 MAX4249 MAX1197 MAX1190 MAX1182 MAX1196 MAX6061 MAX1183 MAX1446 MAX1185 | Reference Voltage for Multiple ADCs |
| WIRELESS, RF, AND CABLE |
| Basestations (Also see: Basestations/Wireless Infrastructure Appnotes) |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX9993 MAX9982 MAX9981 | Consider Overall Cascaded Performance When Comparing Integrated RF Frequency
Mixers to Passive Mixer Solutions |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Cellular Handsets |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Other Applications/Selector Guides/Software/Tutorials |
| MAX1196 MAX1185 MAX1192 | High-Speed ADC Sets Input Common-Mode Range |
| DS1851 | DS1851 Varactor Temperature Compensation |
